Early Oligocene alkaline lamprophyric dykes from the Jandaq area (Isfahan Province,Central Iran): Evidence of Central–East Iranian microcontinent confining oceanic crust subduction

The Jandaq lamprophyres occur as eight mostly parallel dykes, which cross‐cut Eocene volcanic and sedimentary rocks of the Pis‐Kuh Formation in dominant north to south direction. These lamprophyres are mainly composed of kaersutite, clinopyroxene, olivine, feldspar, ilmenite, and spinel as primary minerals. The rocks studied here are enriched in alkalis, TiO₂, large ion lithophile elements, and light rare‐earth elements (LREE), with SiO₂ content between 41.7 and 46.2 wt%, and are classified as camptonite and alkaline lamprophyre according to the mineralogical and chemical characteristics. These rocks exhibit positive Eu anomalies (Eu/Eu* = 1.08–1.39) and are characterized by strong enrichment in LREE relative to heavy REEs, and also by varied Zr/Hf ratios. The geochemical features of the rocks suggest that the lamprophyre magmas were derived from low‐degree melting of an amphibole garnet lherzolite that experienced strong metasomatism by carbonate‐rich fluids in response to dehydration melting from the subducted slab. The Jandaq lamprophyric magmatism has been attributed to the former subduction of the Central–East Iranian microcontinent confining oceanic crust from the Triassic to Eocene, and decompression melting induced by the extensional basin of the Jandaq area in the early Oligocene.